You can use a cylindrical version of barycentric coordinates. I've only checked this for prisms that rise perpendicular from the triangular base -- another way to put this is that we are orthogonally projecting the point into the plane defined by the triangle, and checking if it is inside or not.
If you want more details on the math ask (or better yet, try to figure it out yourself since it's a neat little exercise).
If our triangle is
ABC (non-degenerate), then
N = (B-A)x(C-A) (cross product) is a normal to the (unique) plane defined by the triangle. Call the point we want to test
Now calculate the value
a' = N . ((P-B) x (P-C)) (where
. is dot product).
a' is the usual barycentric coordinate multiplied by
N.N (which is positive).
Similarly, we find
b' = N . ((P-C) x (P-A)) and
c' = N . ((P-A) x (P-B)). If all three of 'a'', 'b'', and 'c'' are non-negative, then the projection of P is inside the triangle (if you want to exclude the triangle itself, then all three must be strictly positive).